Information processing device and display device

ABSTRACT

An information processing device has: a support stand having a base that lies flat and a pole that stands on the base; a processing unit that performs data processing; a display panel that displays an image; and a storage unit that stores information. The device further has an adaptor that supports the processing unit and the storage unit, when the adaptor is attached to the support stand. The adaptor also supports the display panel such that the processing unit and the storage unit are hidden behind the display panel.

BACKGROUND OF THE INVENTION

1. Field of the Invention

The present invention relates to an information processing device suchas a personal computer, which stores, processes and displaysinformation.

2. Description of the Related Art

Information processing devices such as personal computers are widelyused. Recent technical progress has been remarkable in the field ofinformation processing device like in other technical fields andtherefore, information processing devices have been rapidly improved interms of speed-enhancement, increase in capacity, size reduction, weightreduction, etc.

Nowadays, user satisfaction has already reached an extremely high levelbecause information processing devices have been functionally improvedto a large extent. Therefore, not only high performance, but also userfriendliness including excellent usability, handleability and design hasbecome more important than before. Further, beyond the average level ofexcellent usability and handleability satisfying most of users, usersnow desire further higher usability and handleability that enables adevice to operate in various ways as desired by individual users.

The function of processing and storing data of a personal computer isextremely important. However, it is desirable to make a unit performingsuch function mostly or completely invisible in term ofuser-friendliness. What is important for a user is a layout where unitssuch as a keyboard for entering information or a display for displayingimages are arranged as desired by the user.

However, conventional personal computers are far from user friendly interms of structure, because a main unit that performs data processing ina typical personal computer stands out extremely.

Meanwhile, portable laptop computers are also widely used. However,usually, a user cannot freely arrange a keyboard and a screen at anydesired position on a laptop computer. Therefore, although it is truethat laptop computers are excellent in portability, their userfriendliness is not satisfactory.

Meanwhile, a user tends to select a display device suitable for his/herpurpose to use a computer system. When the purpose is changed or thedisplay device becomes out of order due to a screen abnormality etc.,the user needs to change the display device or purchase another one.

SUMMARY OF THE INVENTION

In view of the foregoing, the present invention provides an informationprocessing device capable of implementing various layouts as desired byindividual users, and also provides a display device changeable invarious ways as desired by individual users.

An information processing device of the invention includes:

a support member having a base that lies flat and a pole that stands onthe base;

a processing unit that performs data processing;

a display section that displays an image;

a first adaptor that supports the display section when the first adaptoris attached to the support member; and

a second adaptor that supports the processing unit and the displaysection such that the processing unit is hidden behind the displaysection, when the second adaptor is attached to the support member.

The information processing device of the invention enables a layoutwhere the support member supports the display section alone by use ofthe first adaptor, thereby allowing the processing unit to be placed ata separate location, or a layout where the support member supports boththe display section and the processing unit by use of the secondadaptor. In the layout where the support member supports both thedisplay section and the processing unit, the processing unit issupported such that it is hidden behind the display section. That is,the organization in this layout is visually simplified by making theprocessing unit out of sight.

In the information processing device of the invention, preferably, anyof plural display sections of different sizes is selectable as thedisplay section, and

the first adaptor is capable of supporting any of the plural displaysections.

When the information processing device is thus configured, it ispossible to select one desired by a user from two or more displaysections of different sizes, and to support the selected display sectionwith the support member via the first adaptor.

Preferably, the information processing device of the invention furtherincludes a storage unit that stores information,

wherein the processing unit and the storage unit, in the state of beingsupported by the second adaptor, support the display section, and

the second adaptor supports the display section via the processing unitand the storage unit by making the processing unit and the storage unitbear at least a part of the weight of the display section.

The size of a display section is generally lager than other elements andthus, a large adaptor may be required to stably support the largedisplay screen when the adaptor alone is used to support the displayscreen. On the contrary, according to the invention, by making theprocessing unit and the storage unit bear part of the weight of thedisplay section as described above, it is possible to support thedisplay section with a wide area, thereby improving the stability ofsupport of the display section. In addition, because the processing unitand the storage unit are provided independently of each other, it ispossible to arrange the processing unit and the storage unit either sideby side or separately, in a layout where the processing unit and thestorage unit are placed apart from the display section.

In the information processing device of the invention, preferably, thefirst and second adaptors are magnetically attractable to the supportmember, and the display section is magnetically attractable to the firstadaptor.

Also, in the information processing device of the invention, preferably,the processing unit and the storage unit are magnetically attractable tothe second adaptor, and the display section is magnetically attractableto the processing unit and the storage unit.

By use of magnetic attraction, it is possible to readily change thelayout of the information processing device.

The information processing device of the invention preferably furtherincludes a storage unit that stores information,

wherein when the second adaptor is attached to the support member, thesecond adaptor laterally supports the processing unit and the storageunit, and also supports a pair of the display sections laterallyarranged, such that the processing unit and the storage unit are hiddenbehind the display sections.

This additional feature makes the information processing device of theinvention further convenient for a user requiring two screens.

In the information processing device of the invention, preferably, theprocessing unit and the storage unit, in the state of being supported bythe second adaptor, support the respective display sections, and

the second adaptor supports the display sections via the processing unitand the storage unit, by making the processing unit bear at least a partof the weight of the display section supported by the processing unitwhile making the storage unit bear at least a part of the weight of thedisplay section supported by the storage unit.

When the two display screens are thus used together, it is necessary tosupport these screens with a very large area. Therefore, in theinformation processing device of the invention, the processing unit andthe storage unit are both made to bear part of the weight of the displaysections, in order to stably support these two display screens.

In the information processing device of the invention, preferably, theprocessing unit and the storage unit are magnetically attractable to thesecond adaptor, and the display sections are magnetically attractable tothe processing unit and the storage unit, respectively.

By use of magnetic attraction, it is possible to readily change thelayout of the information processing device.

A display device of the invention includes:

a support member having a base that lies flat and a pole that stands onthe base; and

an adaptor that supports any selected from plural display sections whenthe adaptor is attached to the support member.

In the display device of the invention, any selected from the pluraldisplay sections as desired by a user is supported by the support membersupport via the adaptor. Therefore, the user can use the display deviceonly by changing the display section as desired or depending on thesituation, without changing the entire display device.

The display device of the invention preferably further includes a firstadaptor and a second adaptor as the adaptor,

wherein the first adaptor supports a first display section selected fromthe plural display sections, when the first adaptor is attached to thesupport member,

the second adaptor supports a second display section selected from theplural display sections and different from the first display screen,when the second adaptor in place of the first adaptor is attached to thesupport member.

This additional feature makes it possible to support the display sectionwith the support member via the adaptor suitable for the selecteddisplay.

The display device of the invention preferably further includes a thirdadaptor as the adaptor,

wherein the third adaptor is capable of supporting two or more firstdisplay sections selected from the plural display sections, when thethird adaptor in place of the first and second adaptors is attached tothe support member.

This additional feature makes it possible for a user to carry out worksrequiring two more display screens at the same time.

In the display device of the invention, preferably, the first and seconddisplay sections are of different sizes. This additional feature makesit possible for a user to select and use any of the display sections ofdifferent sizes as desired or depending on the situation.

In the display device of the invention, preferably, the first throughthird adaptors are magnetically attractable to the support member, andthe first and second display sections are magnetically attractable tothe first and second adaptors, respectively.

By use of magnetic attraction, it is possible to readily change thelayout of the display device.

As described above, the information processing device and the displaydevice of the invention can realize layouts as desired or required byindividual users.

BRIEF DESCRIPTION OF THE DRAWINGS

FIG. 1 is a diagram showing the entire structure of an information inputdevice;

FIG. 2 is a perspective view of a keypad unit;

FIG. 3 is a perspective view of a remote-controller unit;

FIG. 4 is a perspective view of a handwriting input board;

FIG. 5 is a perspective view of a keyboard;

FIG. 6 is a perspective view of the keyboard in which the handwritinginput board is housed;

FIG. 7 is a perspective view of the keyboard where the handwriting inputboard with a folding section being unfolded is housed, and a palmrest;

FIG. 8 is a perspective view of the keyboard to which the palmrest isattached and in which the handwriting input board is housed;

FIG. 9 is a perspective view of the information input device in thefully equipped state;

FIG. 10 is a perspective view of a flank of the keyboard;

FIG. 11 is another perspective view of the flank of the keyboard;

FIG. 12 is a perspective view of a display component shown as a firstexample of an information processing device, as viewed from the front;

FIG. 13 is an exploded perspective view of the display component shownin FIG. 12, as viewed from the front;

FIG. 14 is a perspective view of the display component shown in FIG. 12,as viewed from the back;

FIG. 15 is an exploded perspective view of the display component shownin FIGS. 12 and 14, as viewed from the back;

FIG. 16 is a perspective view of an example of use of a processing unitaccompanied by a storage unit;

FIG. 17 is an exploded perspective view of the example shown in FIG. 16;

FIG. 18 is a perspective view of the example shown in FIG. 16, as viewedfrom a support stand;

FIG. 19 is an exploded perspective view of the example shown in FIGS. 16and 18, as viewed from the support stand;

FIG. 20 is a perspective view of another example of use of theprocessing unit;

FIG. 21 is an exploded perspective view of the example shown in FIG. 20;

FIG. 22 is a perspective view of the example shown in FIG. 22, as viewedfrom a support stand;

FIG. 23 is an exploded perspective view of the example shown in FIGS. 20and 22, as viewed from the support stand;

FIG. 24 is a perspective view of a second example of the displaycomponent, as viewed from the front; FIG. 25 is an exploded perspectiveview of the display component shown in FIG. 24, as viewed from thefront;

FIG. 26 is a perspective view of the display component shown in FIG. 24,as viewed from the back;

FIG. 27 is an exploded perspective view of the display component shownin FIGS. 24 and 26, as viewed from the back;

FIG. 28 is a perspective view of a display-and-processing componentshown as a second example of the information processing device;

FIG. 29 is an exploded perspective view of the display-and-processingcomponent shown in FIG. 28, as viewed from the front;

FIG. 30 is a perspective view of the display-and-processing componentshown in FIG. 28, as viewed from the back;

FIG. 31 is an exploded perspective view of the display-and-processingcomponent shown in FIGS. 28 and 30, as viewed from the back;

FIG. 32 is a perspective view of a second adaptor, a processing unit anda storage unit when detached from each other, as viewed from a supportstand side;

FIG. 33 is a perspective view of the second adaptor, the processing unitand the storage unit when detached from each other, as viewed from adisplay panel;

FIG. 34 is a perspective view of a second example of thedisplay-and-processing component, as viewed from the front;

FIG. 35 is an exploded perspective view of the display-and-processingcomponent shown in FIG. 34, as viewed from the front;

FIG. 36 is a perspective view of the display-and-processing componentshown in FIG. 34, as viewed from the back;

FIG. 37 is an exploded perspective view of the display-and-processingcomponent shown in FIGS. 34 and 36, as viewed from the back;

FIG. 38 is a perspective view of a second adaptor employed in thedisplay-and-processing component shown in FIGS. 34 through 37, and theprocessing unit and the storage unit attached to the second adaptor;

FIG. 39 is an exploded perspective view of the second adaptor, theprocessing unit and the storage unit shown in FIG. 38;

FIG. 40 is a perspective view of a third example of thedisplay-and-processing component, as viewed from the front;

FIG. 41 is an exploded perspective view of the display-and-processingcomponent shown in FIG. 40, as viewed from the front;

FIG. 42 is a perspective view of the display-and-processing componentshown in FIG. 40, as viewed from the back; and

FIG. 43 is an exploded perspective view of the display-and-processingcomponent shown in FIGS. 40 and 42, as viewed from the back.

DETAILED DESCRIPTION OF THE INVENTION

A personal computer (hereinafter referred to as “PC”) including anembodiment of the present invention will be described.

The PC described below includes: an information input device having akeyboard as a main element; and an information processing devicecomposed of various components. First, the information input device willbe described with reference to FIGS. 1 through 11 and subsequently, theinformation processing device will be described with reference to FIG.12 and thereafter.

FIG. 1 is a diagram showing the entire structure of an information inputdevice 100.

The information input device 100 shown in FIG. 1 has a housing providedindependently of the information processing device that will bedescribed later with reference to FIG. 12 and thereafter. Theinformation input device 100 is capable of transmitting information tothe information processing device. The information input device 100 iscomposed of a keyboard 10, a frame 20, a keypad unit 30, aremote-controller unit 40, a handwriting input board 50 and a palmrest60.

The keyboard 10 is composed of: a main section 101 whose top face hasmultiple keys 11 arranged thereon; and a support section 102 thatsupports the main section 101 (see also FIGS. 10 and 11).

As shown in FIG. 1, disposed on the top face of the main section 101besides the keys 11 are a power button 12 and a fingerprint sensor 13used for authentication. The support section 102 has a board housingsection 14 formed to house the handwriting input board 50.

The frame 20 is composed of a pair of frames: a right frame 201 and aleft frame 202 disposed on the right and left of the keyboard 10,respectively. The frames 201 and 202 respectively have, at therespective outer ends thereof, cosmetic plates 211 and 212 whose outlineshapes are the same as those of the respective flanks of the keyboard10. These frames 201 and 202 except for the cosmetic plates 211 and 212are inserted in the keyboard 10, and can be pulled out of the keyboard10 when in use. When the frames 201 and 202 are inserted into thekeyboard 10 when not in use, the cosmetic plates 211 and 212 abut therespective flanks of the keyboard 10 and serve as the outermost flanksof the keyboard 10.

The keypad unit 30 and the remote-controller unit 40 are examples of anexpansion unit of the information input device 100 provided with thekeyboard 10 serving as a main component. The keypad unit 30 and theremote-controller unit 40 are so configured as to be removably mountedon the frames 201 and 202 pulled out of the keyboard 10. The keypad unit30 and the remote-controller unit 40 thus mounted on the frames 201 and202 are supported by the keyboard 10 via the frames 201 and 202.

As shown in FIG. 1, the keypad unit 30 is mounted on the right frame201, while the remote-controller unit 40 is mounted on the left frame202. However, the remote-controller unit 40 may be mounted on the rightframe 201, while the keypad unit 30 may be mounted on the left frame202. Alternatively, both the keypad unit 30 and the remote-controllerunit 40 may be mounted on the right frame 201 or the left frame 202.

The keyboard 10 of the information input device 100 is a wirelesskeyboard and thus, information input through the keys 11 is wirelesslytransmitted to a processing unit that will be described later. Also, thekeypad unit 30 and the remote-controller unit 40 serving as expansionunits are each provided with a wireless transmission function.Therefore, information input through the keypad unit 30 and theremote-controller unit 40 is also transmitted to the processing unit,independently of the information input through the keyboard 10.

The keyboard 10 has, on the rear face thereof, an AC adaptor connectionterminal and a Universal Serial Bus (USB) connector terminal (both notshown) for receiving power. Therefore, the keyboard 10 can be suppliedwith power either from an AC power supply through an AC adaptor, or fromother device such as the information processing device that will bedescribed later through a USB cable. The keyboard 10 has a built-insecondary battery and thus, the supplied power is stored in thesecondary battery and used for detecting key operation, transmittinginformation related to the key operation, and so on. In the presentembodiment, the keypad unit 30 and the remote-controller unit 40 eachhave a built-in secondary battery. Further, both flanks of the keyboard10, both flanks of the keypad unit 30, and both flanks of theremote-controller unit 40 are all configured to transmit and receivepower through electromagnetic induction. Therefore, when the keyboard 10and the keypad unit 30, and the keyboard 10 and the remote-controllerunit 40 are arranged to contact each other, power transmission andreceipt is made thereamong, thereby recharging the respective secondarybatteries, so that the power stored therein is used for processing suchas detection of operation and transmission of information related to thedetected operation.

Meanwhile, the handwriting input board 50 includes a handwriting inputsection 51 serving as a digitizer. When a user writes or draws with astylus 59 on the handwriting input section 51, information input throughthe writing or drawing is directly and wirelessly transmitted to theinformation processing device that will be described later. Thehandwriting input board 50 further includes a folding section 53attached to the handwriting input section 51 via hinges 521 and 522 andfoldable to be laid on the handwriting input section 51. The handwritinginput board 50 is housed in the board housing section 14 of the keyboard10 when not in use, with the folding section 53 being folded. Thefolding section 53 also serves as a base for standing the handwritinginput section 51. The details thereof will be described later.

The handwriting input board 50 has a built-in secondary battery, andalso has an electric contact (not shown) provided on a rear face of thehandwriting input board 50 to receive power. When the handwriting inputboard 50 is inserted into the board housing section 14 of the keyboard10, the electric contact of the handwriting input board 50 is broughtinto contact with an electric contact (not shown) provided in the depthof the board housing section 14 to supply power. As a result, the poweris supplied from the keyboard 10 to the handwriting input board 50 andstored in the secondary battery of the handwriting input board 50. Thepower stored in the secondary battery is used for detecting a pointtouched by the stylus 59 on the handwriting input section 51 of thehandwriting input board 50, and also used for transmitting charactersand drawings formed by paths of the point touched by the stylus 59 andchanged with time, to the information processing device that will bedescribed later.

The handwriting input board 50 has been described so far as an example.However, in place of the handwriting input board 50, an image displaypanel for displaying images by wirelessly receiving image signals fromthe information processing device, or a panel-like or board-like unithaving both the functions of image display and digitizer (handwritinginput) may be employed.

Meanwhile, the palmrest 60 is removably attached to the front side ofthe keyboard 10 and aids user operation carried out on the keyboard 10when a user rests the bases of his/her palms on the palmrest 60. Asshown in FIG. 1, the palmrest 60 has a board-housing-extension section61 that is connectable to the opening, which faces the palmrest 60, ofthe board housing section 14 of the keyboard 10. Theboard-housing-extension section 61 is formed to house the handwritinginput board 50 in cooperation with the board housing section 14, byserving as an extended part of the board housing section 14. When thehandwriting input board 50 is housed in the keyboard 10 with thepalmrest 60 being attached to the keyboard 10, the folding section 53 isunfolded. In this state, an end section 53 a disposed on the front sideof the folding section 53 appears through the opening formed in thefront side of the board-housing-extension section 61. Therefore, a usercan draw the handwriting input board 50 by pulling the end section 53 awith fingers or insert the handwriting input board 50 by pushing in theend section 53 a with a finger, while the palmrest 60 remains attachedto the keyboard 10.

FIG. 2 is a perspective view of the keypad unit 30.

Disposed on the top face of the keypad unit 30 are ten-digit keys 31,function keys 32 and a display screen 33. The keypad unit 30 has awireless communication function. Upon detection of key operation, thekeypad unit 30 wirelessly transmits information related to the keyoperation to the information processing device that will be describedlater, and also displays the information on the display screen 33.Alternatively, the information may be displayed first on the displayscreen 33 by operation through any of the function keys 32, and thentransmitted to the information processing device after a user confirmsthe displayed information.

The keypad unit 30 has two channels 341 and 342 formed to receive theframe 20 pulled out of the keyboard 10.

The keypad unit 30 further has a built-in secondary battery and thefunction of recharging the secondary battery through electromagneticinduction.

FIG. 3 is a perspective view of the remote-controller unit 40.

Disposed on the remote-controller unit 40 are plural types of operationmembers 41. As in the case of the keypad unit 30 described withreference to FIG. 2, the remote-controller unit 40 has a wirelesscommunication function. Therefore, the remote-controller unit 40 iscapable of wirelessly transmitting information related to user operationto the information processing device that will be described later, upondetection of the user operation.

The remote-controller unit 40 also has two channels 421 and 422 formedto receive the frame 20 pulled out of the keyboard 10.

The remote-controller unit 40 further has a built-in secondary batteryand the function of recharging the secondary battery throughelectromagnetic induction.

In the embodiment, two types of function units, i.e. the keypad unit 30and the remote-controller unit 40, are described as examples. However,in addition to or in place of the keypad unit 30 and theremote-controller unit 40, another function unit may be provided.

FIG. 4 is a perspective view of the handwriting input board 50.

In FIG. 4, the folding section 53 is folded in the direction reverse tothe folded-and-housed direction. When the folding section 53 is foldedin this way, the folding section 53 cannot be folded further than thestate shown in FIG. 4. The folding section 53 in this state serves as abase for standing and holding the handwriting input section 51.

The folding section 53 has a plate-like built-in secondary battery. Whenthe handwriting input board 50 is housed in the board housing section 14(see FIG. 1), the handwriting input board 50 is supplied with powerthrough an electric contact (not shown) from the keyboard 10 and thus,the secondary battery of the handwriting input board 50 is recharged.The handwriting input board 50 further has a wireless communicationfunction. When a user writes or draws with the stylus 59 on thehandwriting input section 51, information representing paths of themoving stylus 59 is wirelessly transmitted from the handwriting inputboard 50 to the information processing device that will be describedlater.

FIG. 5 is a perspective view of the keyboard 10.

In FIG. 5, the keypad unit 30 shown in FIG. 2 and the remote-controllerunit 40 shown in FIG. 3 are removed from the keyboard 10, the frames 201and 202 (see FIG. 1) are housed in the keyboard 10, and both flanks ofthe keyboard 10 are respectively covered with the cosmetic plates 211and 212.

In FIG. 5, the handwriting input board 50 shown in FIG. 4 is alsoremoved from the keyboard 10 and thus, the opening of the board housingsection 14 for housing the handwriting input board 50 is not occupied.

In this state, the keyboard 10 may be simply used as a keyboard solelywith keyboard function and wirelessly transmits information related tokey operation to the information processing device, upon detection ofthe key operation.

FIG. 6 is a perspective view of the keyboard 10 in which the handwritinginput board 50 is housed.

The handwriting input board 50 is housed in the board housing section 14(see FIG. 5) of the keyboard 10 such that the folding section 53 (seeFIG. 1) is folded and laid on the handwriting input board 50.

In this state, the keyboard 10 can be also used as a keyboard solelywith keyboard function, and the secondary battery of the housedhandwriting input board 50 is recharged.

FIG. 7 is a perspective view of the keyboard 10 where the handwritinginput board 50 with the folding section 53 being unfolded is housed, andthe palmrest 60.

As shown in FIG. 7, in the state when the handwriting input board 50with the folding section 53 being unfolded is housed in the boardhousing section 14 of the keyboard 10, the folding section 53 is in thestate of projecting from the board housing section 14. In the housedstate shown in FIG. 7, the folding section 53 is ready to be housed inthe board-housing-extension section 61 of the palmrest 60 uponattachment of the palmrest 60 to the keyboard 10.

FIG. 8 is a perspective view of the keyboard 10 to which the palmrest 60is attached and in which the handwriting input board 50 is housed.

In the state when the palmrest 60 is attached to the keyboard 10 asshown in FIG. 8, the handwriting input board 50 is housed in the boardhousing section 14 of the keyboard 10 and the board-housing-extensionsection 61 of the palmrest 60 while spreading across both the housingsection 14 and the board-housing-extension section 61 (see also FIG. 7).When the handwriting input board 50 with the folding section 53 beingunfolded is housed in this way, the end section 53 a of the foldingsection 53 appears from the front-side opening of theboard-housing-extension section 61 of the palmrest 60. Therefore, a usercan draw the handwriting input board 50 by pulling the end section 53 awith fingers or insert the handwriting input board 50 by pushing the endsection 53 a with a finger, while the palmrest 60 remains attached tothe keyboard 10.

FIG. 9 is a perspective view of the information input device 100according to the embodiment, in the state all the components are fullyequipped.

The keypad unit 30 is mounted on the right frame of the keyboard 10 andis pressed by the cosmetic plate 211 from the right. Similarly, theremote-controller unit 40 is mounted on the left frame of the keyboard10 and is pressed by the cosmetic plate 212 from the left. The keypadunit 30 and the remote-controller unit 40 are both designed to be thesame as the keyboard 10 in depth, so that they altogether cansubstantially form a one-piece structure as a functionally extendedkeyboard as a whole in terms of appearance and function.

The keypad unit 30 and the remote-controller unit 40 are so configuredas to recharge the respective secondary batteries with power suppliedfrom the keyboard 10 through electromagnetic induction, in the stateshown in FIG. 9.

As in the state shown in FIG. 8, the palmrest 60 is attached to thefront side of the keyboard 10, and the handwriting input board 50 ishoused in the keyboard 10 and the palmrest 60. The end section 53 a ofthe folding section 53 of the handwriting input board 50 appears fromthe front-side opening of the board-housing-extension section 61 of thepalmrest 60.

FIGS. 10 and 11 are perspective views of the right flank of the keyboard10.

As described above, the keyboard 10 is composed of the main section 101and the support section 102. When the main section 101 is mounted on thesupport section 102, the support section 102 supports the mounted mainsection 101 slidably in the depth direction. When the main section 101is slid with respect to the support section 102 towards the rear side ofthe keyboard 10, the support section 102 raises the rear side of themain section 101, thereby tilting the main section 101.

FIG. 10 and FIG. 11 show the states before and after the main section101 is slid towards the rear side thereof, respectively.

When the main section 101 is slid, the main section 101 is tilted suchthat the rear side thereof is raised and supported as it is by thesupport section 102. The longer the sliding distance is, the larger thetilting angle is. Therefore, it is possible for a user to use thekeyboard 10 tilted at a desired angle by adjusting the sliding distance.

Meanwhile, because the main section 101 and the support section 102 aresubstantially equal to each other in depth and width, the supportsection 102 can support the main section 101 with its large surface inany state, irrespective of the sliding distance of the main section 101.Accordingly, it is possible to prevent the main section 101 fromunnecessarily rattling or to prevent the set tilt angle from changing byaccident, during user operation.

This concludes the description of the information input device 100 andsubsequently, various examples of the information processing device willbe described.

The information processing device is composed of various components, andbasically includes a support stand (support member), a processing unit,a storage unit, a display panel (display section), a first adaptor and asecond adaptor, and thus can be set up in various ways by combiningthese elements as desired. The information processing device can alsoserve as a display device by combining the support stand, the displaypanel and the adaptor (such as the first and the second adaptors).

FIG. 12 is a perspective view of a first example of the informationprocessing device (hereinafter will be referred to as a “displaycomponent” and also will be described as a first example of the displaycomponent), in a combined state as viewed from the front. FIG. 13 is anexploded perspective view of the display component shown in FIG. 12, asviewed from the front. FIG. 14 is a perspective view of the displaycomponent shown in FIG. 12, as viewed from the back. FIG. 15 is anexploded perspective view of the display component shown in FIGS. 12 and14, as viewed from the back.

The display component shown in FIGS. 12 through 15 is a displaycomponent 200 having a support stand 110, a first adaptor 120 and adisplay panel 130.

The support stand 110 has a plate-like base 111 that lies flat and apole 112 that stands on the base 111. The pole 112 has a rectangularlink 113 that links an adaptor to the pole 112. The pole 112 of thesupport stand 110 has, on one flank thereof, an AC adaptor connectionport 114 for receiving power. The pole 112 also has, on the other flankthereof, a USB connector terminal 115 into which a USB connector forsupplying power to the keyboard 10 of the information input device 100shown in FIGS. 1 through 11 is to be inserted.

Basically, two types of adaptors can be employed, namely: a firstadaptor for enabling the support stand 110 to support only a displaypanel; and a second adaptor for enabling the support stand 110 tosupport, in addition to a display panel, a processing unit and a storageunit, which will be described later. In this example, the first adaptor120 for enabling the support stand 110 to support only a display panelis employed.

The first adaptor 120 has a ridge 121 that vertically runs on a surfacethat faces the display panel 130. The ridge 121 has an electric contact(not shown) and thus is configured to receive power supplied from thesupport stand 110 and to transmit the received power to the displaypanel 130.

Meanwhile, as shown in FIG. 15, the first adaptor 120 has anothersurface facing the support stand 110, on which surface a rectangularrecess 123 surrounded by a projecting frame 122 is formed. The recess123 is a hollow in which the rectangular link 113 of the support stand110 is to be engaged. The rectangular link 113 of the support stand 110and the recess 123 of the first adaptor 120 have the respective electriccontacts (not shown) that are connectable to each other. When the firstadaptor 120 is attached to the support stand 110 by engaging the link113 in the recess 123, power is supplied to the support stand 110through the AC adaptor connection port 114 from an AC adaptor, and is inturn supplied from the support stand 110 to the first adaptor 120 viathe respective electric contacts. The power is then supplied to thedisplay panel 130 through the electric contact of the ridge 121 of thefirst adaptor 120.

Meanwhile, in order to make the rectangular link 113 of the supportstand 110 and the first adaptor 120 attract each other, either one ofthe first adaptor 120 and the rectangular link 113 has a magnet embeddedtherein, while the other has a magnetic member (or a magnet disposed soas to have an attractive polarity) embedded therein.

The display panel 130 has a display screen 131 on its front face asshown in FIGS. 12 and 13. The display panel 130 also has a verticallyrunning channel 132 on its back face as shown in FIG. 15. The channel132 is so formed as to receive the vertically running ridge 121 of thefirst adaptor 120. In the channel 132, there is provided an electriccontact connectable to the electric contact provided in the ridge 121 ofthe first adaptor 120. When the first adaptor 120 is attached to thedisplay panel 130 such that the ridge 121 of the first adaptor 120 isengaged in the channel 132 of the display panel 130, power is suppliedto the display panel 130 through the connected electric contactsrespectively provided in the ridge 121 and the channel 132.

In order to securely attach the display panel 130 to the first adaptor120 by use of magnetic force, a magnet is embedded in either one of theback of the first adaptor 120 and the display panel 130, while amagnetic member (or a magnet disposed so as to have an attractivepolarity) is embedded in the other.

The display panel 130 has a built-in wireless communication function forreceiving image signals wirelessly transmitted from the processing unitthat will be described later. The display panel 130 receives power fromthe support stand 110 via the first adaptor 120 as well as receiveswirelessly transmitted image signals, and displays an image on thedisplay screen 131 based on the received image signals.

FIG. 16 is a perspective view of an example of use of the processingunit (140) when used together with a storage unit 150 and a supportstand 160. FIG. 17 is an exploded perspective view of the example shownin FIG. 16. FIG. 18 is a perspective view of the example shown in FIG.16, as viewed from the support stand 160. FIG. 19 is an explodedperspective view of the example shown in FIGS. 16 and 18, as viewed fromthe support stand 160.

The example to be described with reference to these figures is composedof the processing unit 140, the storage unit 150 of the same size as theprocessing unit 140, and the support stand 160 for standing theprocessing unit 140 and the storage unit 150.

As shown in FIG. 19, the support stand 160 is provided with an ACadaptor connection section 161 and is capable of receiving powersupplied from an AC adaptor through the AC adaptor connection section161. As shown in FIG. 17, the support stand 160 has vertically runningtwo ridges 162 and 163 that are provided with electric contacts (notshown) for supplying power to the processing unit 140 and the storageunit 150, respectively. The power received by the support stand 160through the AC adaptor connection section 161 is supplied to theprocessing unit 140 and the storage unit 150 via the respective electriccontacts of the ridges 162 and 163.

Disposed on one flank of the processing unit 140 is a power button 141used to turn on the power, while formed on the other flank opposite theone flank is a channel 142 in which the vertically running ridge 162 ofthe support stand 160 is to be engaged. The channel 142 has an electriccontact (not shown) connectable to the electric contact of the ridge 162of the support stand 160 and thus is capable of receiving power from thesupport stand 160. In order to securely attach the processing unit 140to the support stand 160 by use of magnetic force, a magnet is embeddedin either one of the support stand 160 and the stand 160-facing flank ofthe processing unit 140, while a magnetic member (or a magnet disposedso as to have an attractive polarity) is embedded in the other.

The processing unit 140 has elements incorporated therein, such as CPU,main memory, etc. for performing processing. The processing unit 140also has a wireless communication function of wirelessly exchanginginformation with the information input device 100 (see FIG. 9), thedisplay panel 130 (see FIG. 12) and the storage unit 150 that will bedescribed next. The processing unit 140 also has a wireless local-areanetwork (LAN) function enabling wireless connection to a LAN.

The storage unit 150 has built-in elements such as a hard disk drive anda CD/DVD drive for accessing a CD or DVD removably inserted into thestorage unit 150. The storage unit 150 also has a wireless communicationfunction of wirelessly exchanging information with the processing unit140.

Provided on a flank of the storage unit 150 are a power button 151 and aCD/DVD loading slot 152 into which a CD or DVD is removably inserted.Upon a press of a button 152 a of the CD/DVD loading slot 152, aplate-like member on which a CD or DVD is to be placed comes out. Bypushing the plate-like member back into the storage unit 150 afterplacing a CD or DVD on the member, the CD or DVD can be inserted intothe storage unit 150. The inserted CD or DVD can be removed in a similarmanner.

On a flank opposite the flank where the power button 151 is disposed,the storage unit 150 has the vertically running channel 153 in which thevertically running ridge 163 of the support stand 160 is to be engaged,as in the case of the processing unit 140. The channel 153 has anelectric contact (not shown) connectable to the electric contact of theridge 163 of the support stand 160 and thus is capable of receivingpower from the support stand 160.

As also in the case of the processing unit 140, in order to securelyattach the storage unit 150 to the support stand 160 by use of magneticforce, a magnet is embedded in either one of the support stand 160 andthe stand 160-facing flank of the storage unit 150, while a magneticmember (or a magnet disposed so as to have an attractive polarity) isembedded in the other.

In the above description, the processing unit 140 is coupled to thesupport stand 160 via the ridge 162, while the storage unit 150 iscoupled to the support stand 160 via the ridge 163. The two ridges 162and 163 are structurally the same, and the channel 142 of the processingunit 140 and the channel 153 of the storage unit 150 are alsostructurally the same. Similarly, the processing unit 140 and thestorage unit 150 are also structurally the same in terms of magneticattraction. Therefore, it is possible to couple the storage unit 150 tothe support stand 160 via the ridge 162 and to couple the processingunit 140 to the support stand 160 via the ridge 163, in reverse.

FIG. 20 is a perspective view of another example of use of theprocessing unit 140 when used together with a support stand 170. FIG. 21is an exploded perspective view of the example shown in FIG. 20. FIG. 22is a perspective view of the example shown in FIG. 22, as viewed fromthe support stand 170. FIG. 23 is an exploded perspective view of theexample shown in FIGS. 20 and 22, as viewed from the support stand 170.

The processing unit 140 shown in FIGS. 20 through 23 is the same as theprocessing unit 140 described with reference to FIGS. 16 through 19 andtherefore, the description of the processing unit 140 will be omittedand only the support stand 170 provided in place of the support stand160 will be described.

Although the support stand 160 described with reference to FIGS. 16through 19 is so configured as to stand and supply power to the twounits: the processing unit 140 and the storage unit 150, the supportstand 170 shown in FIGS. 20 through 23 is so configured as to stand andsupply power to the processing unit 140 only.

Specifically, the support stand 170 has an AC adaptor connection port171 as shown in FIGS. 22 and 23, and also has a vertically running ridge172 as shown in FIG. 21. The ridge 172 is structurally the same as thetwo ridges 162 and 163 of the support stand 160 shown in FIG. 17 and hasan electric contact (not shown) for supplying power to the processingunit 140. Also, the support stand 170 is structurally similar to thesupport stand 160 described with reference to FIGS. 16 through 19, interms of magnetic attraction with respect to the processing unit 140.

When the information processing device described here is used as a thinclient, the storage unit 150 is not necessary and thus, it is possibleto stand and use the processing unit 140 alone by means of the supportstand 170.

Incidentally, the support stand 170 has been described so far, as asupport stand for standing the processing unit 140 alone. However, asdescribed above, the processing unit 140 and the storage unit 150 arecompatible with each other in the way they are attached to the supportstand 160. For this reason, the support stand 170 may be used as asupport stand for supporting the storage unit 150. Accordingly, when twosupport stands 170 are provided, it is possible to use one for standingthe processing unit 140 and the other for standing the storage unit 150,thereby placing the processing unit 140 and the storage unit 150 indifferent locations.

FIG. 24 is a perspective view of a second example of the displaycomponent in a combined state, as viewed from the front. FIG. 25 is anexploded perspective view of the display component shown as the secondexample in FIG. 24, as viewed from the front. FIG. 26 is a perspectiveview of the display component shown in FIG. 24, as viewed from the back.FIG. 27 is an exploded perspective view of the display component shownin FIGS. 24 and 26, as viewed from the back.

The display component shown in FIGS. 24 through 27 is a displaycomponent 300 having a support stand 110, a first adaptor 120 and adisplay panel 310. The support stand 110 and the first adaptor 120 inthe second example are similar to those of the display component 200described above as the first example with reference to FIGS. 12 through15 and thus will not be described. The following description will focuson the display panel 310.

The display panel 310 is structurally about the same as the displaypanel 130 of the display component 200 shown in FIGS. 12 through 15except that the display panel 310 is larger in size than the displaypanel 130.

The display panel 310 has a display screen 311 on the front face. On thecenter of the back face of the display panel 310, there is formed achannel 312 in the same shape as the channel 132 of the display panel130 used in the display component 200 shown in FIGS. 12 through 15. Thechannel 312 is formed such that a vertically running ridge 121 of thefirst adaptor 120 can be engaged in the channel 312. The channel 312 isprovided with an electric contact (not shown) for receiving powersupply. When the display panel 310 is attached to the first adaptor 120by engaging the ridge 121 of the first adaptor 120 in the channel 312,the electric contact provided in the ridge 121 of the first adaptor 120is brought into contact with the electric contact provided in thechannel 312 of the display panel 310, so that power is supplied to thedisplay panel 310 through these electric contacts.

The display panel 310 is also similar to the display panel 130 of thedisplay component 200 shown in FIGS. 12 through 15, in terms of magneticattraction. A magnet or a magnetic member is embedded in the displaypanel 310, so that the display panel 310 can be attached to the firstadaptor 120 through magnetic attraction.

As described above, the two different types of display panels 130 and310 are provided in the present embodiment. Therefore, it is possible tosupport either of these display panels 130 and 310 with the supportstand 110 via the first adaptor 120.

FIG. 28 is a perspective view of a second example of the informationprocessing device.

In this example, units similar to the above-described processing unit140, storage unit 150 and display panel 130 are all supported by a standsimilar to the support stand 110. The second example having such astructure will be referred to as a “display-and-processing component”(will also be described as a first example of the display-and-processingcomponent).

FIG. 29 is an exploded perspective view of the display-and-processingcomponent shown in FIG. 28, as viewed from the front. FIG. 30 is aperspective view of the display-and-processing component shown in FIG.28, as viewed from the back. FIG. 31 is an exploded perspective view ofthe display-and-processing component shown in FIGS. 28 and 30, as viewedfrom the back.

The display-and-processing component shown in FIGS. 28 through 31 is adisplay-and-processing component 400 having a support stand 110, asecond adaptor 410, a processing unit 140, a storage unit 150 and adisplay panel 130.

The support stand 110 and the display panel 130 are similar to those ofthe display component 200 described with reference to FIGS. 12 through15 and thus will not be described. The following description will focuson the second adaptor 410 and how the second adaptor 410 supports theprocessing unit 140 and the storage unit 150.

FIGS. 32 and 33 are perspective views of the second adaptor 410, theprocessing unit 140 and the storage unit 150 when detached from eachother, as viewed from the support stand 110 and the display panel 130,respectively.

An adaptor that enables the support stand 110 (see FIG. 29) to supportnot only the display panel 130 but also the processing unit 140 and thestorage unit 150 is referred to as a second adaptor, and exemplifiedhere by the second adaptor 410.

The second adaptor 410 shown in FIGS. 32 and 33 has the same shape asthe first adaptor 120 of the display component 200 described withreference to FIGS. 12 through 15, in the surface viewed from the supportstand 110. Specifically, as shown in FIG. 32, the second adaptor 410has, in the surface facing the support stand 110, a rectangular recess412 that is surrounded by a projecting frame 411 and that a rectangularlink 113 of the support stand 110 is to be engaged in. The link 113 ofthe support stand 110 has an electric contact as in the case of theexample described above, while the recess 412 of the second adaptor 410has an electric contact in the same pattern as the electric contact ofthe link 113. Therefore, when the second adaptor 410 is attached to thesupport stand 110 by engaging the link 113 in the recess 412, powerreceived by an AC adaptor connection port 114 of the support stand 110is supplied to the second adaptor 410 through these electric contacts.The power is then further supplied to the display panel 130, theprocessing unit 140 and the storage unit 150 as will be described later.

Meanwhile, as shown in FIG. 33, the second adaptor 410 has a supportpole 413 standing along the surface facing the display panel 130. Thesupport pole 413 has vertically running ridges 414 and 415 formed on itsboth flanks and a vertically running ridge 416 formed on its frontsurface facing the display panel 130.

These three ridges 414, 415 and 416 are formed to be engaged in achannel 142 (see FIG. 32) of the processing unit 140, a channel 153 (seeFIG. 33) of the storage unit 150 and a channel 132 (see FIG. 31) formedon the back face of the display panel 130. These three ridges 414, 415and 416 are each provided with an electric contact (not shown) and thus,power supplied from the support stand 110 to the second adaptor 410 isfurther supplied to the processing unit 140, the storage unit 150 andthe display panel 130 via the electric contacts of the ridges 414, 415and 416.

The second adaptor 410 has a structure similar to the first adaptor 120attachable to the support stand 110 (see FIGS. 13 and 15), in terms ofmagnetic attraction. Therefore, the second adaptor 410 can be attractedto the support stand 110 by magnetic force.

The processing unit 140 and the storage unit 150 are magneticallyattractable to the second adaptor 410, while the display panel 130 ismagnetically attractable to the processing unit 140 and the storage unit150.

FIG. 34 is a perspective view of a second example of thedisplay-and-processing component as viewed from the front. FIG. 35 is anexploded perspective view of the display-and-processing component shownin FIG. 34, as viewed from the front. FIG. 36 is a perspective view ofthe display-and-processing component shown in FIG. 34, as viewed fromthe back. FIG. 37 is an exploded perspective view of thedisplay-and-processing component shown in FIGS. 34 and 36, as viewedfrom the back.

The display-and-processing component shown in FIGS. 34 through 37 is adisplay-and-processing component 500 having a support stand 110, asecond adapter 510, a processing unit 140, a storage unit 150 and adisplay panel 310. Among them, the support stand 110, the processingunit 140 and the storage unit 150 are similar to those of thedisplay-and-processing component 400 described above as the firstexample with reference to FIGS. 28 through 33, and thus will not bedescribed. Also, the display panel 310 is similar to that of the displaycomponent 300 described with reference to FIGS. 24 through 27, and thuswill not be described.

Accordingly, the following description will focus on the second adapter510 and how the second adapter 510 supports the processing unit 140 andthe storage unit 150.

As mentioned above, an adaptor that enables the support stand to supportnot only the display panel but also the processing unit and the storageunit is referred to as a second adaptor. The second adaptor 510 of thedisplay-and-processing component 500 shown in FIGS. 34 through 37 isalso an example of the second adaptor.

FIG. 38 is a perspective view of the second adaptor 510 employed in thedisplay-and-processing component 500 shown in FIGS. 34 through 37, andthe processing unit 140 and the storage unit 150 attached to the secondadaptor 510. FIG. 39 is an exploded perspective view of the secondadaptor 510, the processing unit 140 and the storage unit 150 shown inFIG. 38.

The second adaptor 510 has, in the surface facing the support stand 110,a rectangular recess 511 in which a rectangular link 113 of the supportstand 110 is to be engaged. As in the case of the second adaptor 410 ofthe display-and-processing component 400 shown in FIGS. 28 through 31and in the case of the first adaptor 120 of the display component 200shown in FIGS. 12 through 15, the second adaptor 510 is magneticallyattracted to the support stand 110 when the link 113 of the supportstand 110 is engaged in the recess 511. The recess 511 has an electriccontact (not shown) and thus, it is possible to supply power from thesupport stand 110 to the second adaptor 510 by engaging the link 113 ofthe support stand 110 in the recess 511.

Formed on both flanks of the second adaptor 510 are vertically runningtwo ridges 512: one (not shown) to be engaged in a channel 142 of theprocessing unit 140 and the other to be engaged in a channel 153 (seeFIG. 33 for example) of the storage unit 150. These left and rightridges 512 are each provided with an electric contact (not shown).Therefore, when the ridges 512 are engaged in the channels 142 and 153of the processing unit 140 and the storage unit 150, power supplied fromthe support stand 110 to the second adaptor 510 is further supplied tothe processing unit 140 and the storage unit 150 through the electriccontacts. The processing unit 140 and the storage unit 150 aremagnetically attracted to the second adaptor 510 when the ridges 512 areengaged in the channels 142 and 153.

As shown in FIG. 35, the second adaptor 510 also has a verticallyrunning ridge 514 on the surface facing the display panel 310. The ridge514 is similar, in terms of shape and function, to the ridge 416 formedon the second adaptor 410 of the display-and-processing component 400described with reference to FIGS. 28 through 33, and also to the ridge121 formed on the first adaptor 120 of the display component 300described with reference to FIGS. 24 through 27. The ridge 514 enablesattachment of the display panel 310 to the second adaptor 510 andtransfers power supplied from the support stand 110 to the display panel310, by being engaged in a channel 312 (see FIG. 37) of the displaypanel 310. When the ridge 514 of the second adaptor 510 is engaged inthe channel 312 of the display panel 310, the display panel 310 ismagnetically attracted to the second adaptor 510 and also to theprocessing unit 140 and the storage unit 150 attached to the left andright flanks of the second adaptor 510.

As described above, although the size of the display panel 310 is large,the back face of the display panel 310 is supported in a wide areathereof. This is because the processing unit 140 and the storage unit150 are fixed to the second adaptor 510, while spreading both sides ofthe second adaptor 510, thereby firmly securing the display panel 310.

FIG. 40 is a perspective view of a third example of thedisplay-and-processing component as viewed from the front. FIG. 41 is anexploded perspective view of the display-and-processing component shownin FIG. 40, as viewed from the front. FIG. 42 is a perspective view ofthe display-and-processing component shown in FIG. 40, as viewed fromthe back. FIG. 43 is an exploded perspective view of thedisplay-and-processing component shown in FIGS. 40 and 42, as viewedfrom the back.

The display-and-processing component shown in FIGS. 40 through 43 is adisplay-and-processing component 600 having a support stand 110, asecond adapter 610, a processing unit 140, a storage unit 150 and twodisplay panels 130A and 130B. Among them, the support stand 110 issimilar to those of the display components and thedisplay-and-processing components described so far, and the processingunit 140 and the storage unit 150 are also similar to those described sofar. Also, the display panels 130A and 130B are similar to that of thedisplay component 200 described with reference to FIGS. 12 through 15,and to that of the display-and-processing component 400 described withreference to FIGS. 28 through 33. The second adapter 610 of thedisplay-and-processing component 600 shown in FIGS. 40 through 43 issimilar to the second adapter 510 of the display-and-processingcomponent 500 described with reference to FIGS. 34 through 39, exceptthat while the second adapter 510 has the ridge 514 (see FIG. 35) on thesurface facing the display panel 310, the second adapter 610 has no sucha ridge. The second adapter 610 has ridges (not shown) similar to theridges 512 formed on both flanks of the second adapter 510 employed inthe display-and-processing component 500 described with reference toFIGS. 34 through 39, and also has a recess 611 similar to the recess 511(see FIGS. 38 and 39) formed on the support-stand-facing surface of thesecond adapter 510.

The processing unit 140 and the storage unit 150 are magneticallyattractable to the left and right flanks of the second adapter 610. Thedisplay panels 130A and 130B are supported by the support stand 110 whenthe panels 130A and 130B are magnetically attracted to the processingunit 140 and the storage unit 150, respectively.

In this configuration, the processing unit 140 and the storage unit 150are supplied with power from the support stand 110 via the secondadapter 610, but the display panels 130A and 130B are not supplied withpower in this route passing the second adapter 610. For this reason,when the display-and-processing component 600 shown in FIGS. 40 through43 is included in a range of selectable combinations, there is employed,for example, such a configuration that the display panels 130A and 130Bare each provided with an AC adaptor connection terminal (not shown) forconnecting an AC adaptor so that the display panels 130A and 130B can bedirectly supplied with AC power via the AC adaptor.

As described above, according to the embodiment, variable combinationsand layouts are available and thus it is possible for each user to setup any desired easy-to-use system.

1. An information processing device comprising: a support member havinga base that lies flat and a pole that stands on the base; a processingunit that performs data processing; a display section that displays animage; a first adaptor that supports the display section when the firstadaptor is attached to the support member; and a second adaptor thatsupports the processing unit and the display section such that theprocessing unit is hidden behind the display section, when the secondadaptor is attached to the support member.
 2. The information processingdevice according to claim 1, wherein any of plural display sections ofdifferent sizes is selectable as the display section, and the firstadaptor is capable of supporting any of the plural display sections. 3.The information processing device according to claim 1, furthercomprising a storage unit that stores information, wherein theprocessing unit and the storage unit, in the state of being supported bythe second adaptor, support the display section, and the second adaptorsupports the display section via the processing unit and the storageunit by making the processing unit and the storage unit bear at least apart of the weight of the display section.
 4. The information processingdevice according to claim 1, wherein the first and second adaptors aremagnetically attractable to the support member.
 5. The informationprocessing device according to claim 1, wherein the display section ismagnetically attractable to the first adaptor.
 6. The informationprocessing device according to claim 3, wherein the processing unit andthe storage unit are magnetically attractable to the second adaptor, andthe display section is magnetically attractable to the processing unitand the storage unit.
 7. The information processing device according toclaim 1, further comprising a storage unit that stores information,wherein when the second adaptor is attached to the support member, thesecond adaptor laterally supports the processing unit and the storageunit, and also supports a pair of the display sections laterallyarranged, such that the processing unit and the storage unit are hiddenbehind the display sections.
 8. The information processing deviceaccording to claim 7, wherein the processing unit and the storage unit,in the state of being supported by the second adaptor, support therespective display sections, and the second adaptor supports the displaysections via the processing unit and the storage unit, by making theprocessing unit bear at least a part of the weight of the displaysection supported by the processing unit while making the storage unitbear at least a part of the weight of the display section supported bythe storage unit.
 9. The information processing device according toclaim 8, wherein the processing unit and the storage unit aremagnetically attractable to the second adaptor, and the display sectionsare magnetically attractable to the processing unit and the storageunit, respectively.
 10. A display device comprising: a support memberhaving a base that lies flat and a pole that stands on the base; and anadaptor that supports any selected from plural display sections when theadaptor is attached to the support member.
 11. The display deviceaccording to claim 10, further comprising a first adaptor and a secondadaptor as the adaptor, wherein the first adaptor supports a firstdisplay section selected from the plural display sections, when thefirst adaptor is attached to the support member, and the second adaptorsupports a second display section selected from the plural displaysections and different from the first display screen, when the secondadaptor in place of the first adaptor is attached to the support member.12. The display device according to claim 11, further comprising a thirdadaptor as the adaptor, wherein the third adaptor is capable ofsupporting two or more first display sections selected from the pluraldisplay sections, when the third adaptor in place of the first andsecond adaptors is attached to the support member.
 13. The displaydevice according to claim 11, wherein the first and second displaysections are of different sizes.
 14. The display device according toclaim 12, wherein the first through third adaptors are magneticallyattractable to the support member.
 15. The display device according toclaim 11, wherein the first and second display sections are magneticallyattractable to the first and second adaptors, respectively.